KR200290047Y1 - Monitor's back-raster brightness compensator - Google Patents

Abstract

The present invention relates to a back-raster brightness compensation device of the monitor, in particular, the FBT (100) for applying a high voltage or current to the voltage converter; A brightness controller 200 for adjusting the brightness of the monitor screen according to the frequency mode; A voltage converter 300 for converting an AC voltage applied from the FBT 100 into a DC voltage; A voltage drop unit 400 for dropping the voltage to apply the voltage applied from the power supply unit and the voltage applied from the brightness controller 200 to the base terminal of the amplifier transistor Q1; An amplifier 500 for amplifying the voltage applied from the brightness controller 200 as needed by the CRT 800; A voltage comparator 600 for comparing the voltage output from the emitter terminal of the amplifier Q1 transistor with a reference voltage; And the MCU 700 for applying a voltage to compensate for the voltage output from the transistor Q1 of the amplifier 500 according to the voltage compared by the voltage comparator 600 when the voltage is lower than the reference voltage. As the back-raster brightness compensation device of the monitor, the present invention has a small effect on the image quality of the monitor even if the frequency mode is changed.

Description

Monitor's back-raster brightness compensator

The present invention relates to a back-raster brightness compensation device of a monitor, and in particular, a monitor for compensating for a difference in brightness of a monitor screen due to a difference in frequency and pixels according to a mode change when the screen mode of the monitor is changed. The back-raster brightness compensation device of the present invention.

In general, there is a difference in the brightness of the back-raster of the screen between the low and high frequency modes of the monitor. For example, if the back-raster brightness is set to 3cd / m2 in 31K 640 * 480 mode, the back-raster brightness will be 5-6cd / m2 when converted to 48K 1024 * 766 mode.

The reason for this is that the 48K 1024 * 766 mode is brighter than the 31K 640 * 480 mode because the 48K 1024 * 766 mode has a high horizontal frequency and a large number of display pixels and vertical lines.

As a result, the user may feel a visual difference with respect to the display of the monitor, and there is a problem that the eyes are easily tired because the brightness of the image quality is severe.

The purpose of the present invention is to solve the above-mentioned conventional problems. In particular, when the output voltage is lower than the reference voltage by checking the voltage output from the microcontroller (called MCU below MICRO CONTROL UNIT), the MCU The voltage of the brightness controller that adjusts the brightness of the monitor screen is applied to the amplifier, and the amplifier amplifies the CRT (CATHOD RAY TUBE or less CRT). It is to provide a back-raster brightness compensation device of a monitor that adds a resistance to reduce the occurrence so that the user does not feel a change in screen brightness even when changing the mode of frequency.

In order to achieve the above object, the back-raster brightness compensator of the present invention includes: a FBT (FLY BACK TRANSFORMER) for applying a high voltage or current to the voltage converter; A brightness controller for adjusting the brightness of the monitor screen according to the frequency mode; A voltage converting unit converting an AC voltage applied from the FBT into a DC voltage; A voltage drop unit for dropping the voltage to apply the voltage applied from the power supply unit and the voltage applied from the brightness controller to the base terminal of the amplifier transistor Q1; An amplifier for amplifying the voltage applied from the brightness controller as required by the CRT; A voltage comparator comparing the voltage output from the emitter of the amplifier transistor Q1 with a reference voltage; Technical characteristics of the present invention include an MCU which applies a voltage to compensate for the voltage output from the transistor Q1 of the amplifier according to the voltage compared by the voltage comparing unit when the voltage is lower than the reference voltage.

1 is a schematic diagram of a back-raster brightness compensation device of the present invention monitor;

It is a schematic diagram.

<Description of the symbols for the main parts of the drawings>

100: FBT 200: brightness control unit

300: voltage conversion unit 400: voltage drop unit

500: amplifier 600: voltage comparison unit

700: MCU 800: CRT

Hereinafter, an embodiment according to the technical idea of the back-raster brightness compensation device of the present invention monitor configured as described above will be described in detail with reference to the accompanying drawings.

<Example>

As shown in FIG. 1, the FBT 100 applies a high voltage and a current to the voltage converter 300, and the brightness controller 200 adjusts the brightness of the monitor screen according to the frequency mode. In operation 300, the AC voltage applied from the FBT 100 is converted into a DC voltage and applied to the CRT 800. In the voltage dropping unit 400, the voltage applied from the power supply unit and the brightness control unit 200 are applied. In order to apply the voltage to the base terminal of the transistor Q1 of the amplifier 500, the voltage is dropped and applied to the amplifier 500, and the amplifier 500 applies the voltage applied from the brightness controller 200. Amplify as much as necessary in the CRT (800) and apply it to the CRT (800), the voltage comparator 600 compares the voltage output from the emitter of the transistor (Q1) of the amplifier 500 with a reference voltage MCU ( 700, the MCU 700 in the voltage comparison unit 600 The present embodiment is configured by applying a signal to the brightness controller 200 to compensate for the voltage output from the amplifier Q1 of the amplifier 500 according to the compared voltage lower than the reference voltage.

Hereinafter, the operation of the present embodiment configured as described above will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the voltage applied from the FBT 100 is converted from the AC voltage to the DC voltage in the diode D1 of the voltage converter 300 and applied to the capacitor C1, thereby allowing the capacitor C1 to be applied. When the charging is started, when the charging of the capacitor C1 is completed, the battery is discharged, and the discharged voltage is applied to the CRT 800 through the resistor R1.

In this case, the brightness controller 200 applies a signal about the screen brightness to the resistor R3 of the voltage drop unit 400, and the signal applied to the resistor R3 is applied to the transistor Q1 of the amplifier 500. It is applied to the base terminal.

On the other hand, a power supply of 12 V is applied to the collector terminal of the transistor Q1, and a voltage drop occurs due to the resistor R4. As the transistor Q1 becomes conductive, the signal applied from the brightness adjusting unit 200 is amplified by the transistor Q1 and applied to the base terminal of the transistor Q2, and as in the case of the transistor Q1, from the power supply unit. A power supply of 12 V is applied to cause a voltage drop in the resistor R5 to be applied to the collector terminal of the transistor Q2.

As transistor Q2 becomes conductive, the signal applied from transistor Q1 is applied to CRT 800 via resistor R6.

Meanwhile, the voltage output through the emitter terminal of the transistor Q1 is applied to the MCU 700 via the diode D2 and the resistor R8.

The amplification ratio of the transistor Q1 of the amplifier 500 changes according to the resistance R7 of the voltage comparator 600, and is applied from the MCU 700 to the brightness controller 200 according to the resistance R8. The signal will be different.

When the voltage output from the emitter terminal of the transistor Q1 is less than the reference voltage, the signal is applied from the MCU 700 to the brightness controller 200 to further apply the voltage that is less than the voltage. Even if the frequency mode changes, the difference is not felt.

As described above, the back-raster brightness compensator of the monitor of the present invention, in particular, compares the output voltage with the reference voltage when the output voltage is lower than the reference voltage to compensate for the user even if there is a change in the frequency mode By avoiding the visual difference, even if the frequency mode is changed, there is little effect on the image quality of the monitor.

Claims (1)

An FBT for applying a high voltage or current to the voltage converter; A brightness controller for adjusting the brightness of the monitor screen according to the frequency mode; A voltage converting unit converting an AC voltage applied from the FBT into a DC voltage; A voltage drop unit for dropping the voltage to apply the voltage applied from the power supply unit and the voltage applied from the brightness controller to the base terminal of the amplifier transistor Q1; An amplifier for amplifying the voltage applied from the brightness controller as required by the CRT; A voltage comparator comparing the voltage output from the emitter of the amplifier transistor Q1 with a reference voltage; Back-raster brightness compensation of the monitor, characterized in that it comprises a MCU for applying a voltage to compensate if the voltage output from the transistor (Q1) of the amplifier according to the voltage comparison unit is lower than the reference voltage Device.